Rapid peptide turnover and inefficient presentation of exogenous antigen critically limit the activation of self-reactive CTL by dendritic cells
B Ludewig, K McCoy, M Pericin… - The Journal of …, 2001 - journals.aai.org
The Journal of Immunology, 2001•journals.aai.org
This study evaluated to what extent presentation of exogenously acquired self-Ags via MHC
class I molecules on DC might contribute to the activation of self-reactive CTL and
subsequent development of autoimmune disease. We show here by using the rat insulin
promotor lymphocytic choriomeningitis virus glycoprotein model of autoimmune diabetes
that the activation of self-reactive CTL by DC after uptake of exogenous Ag is very limited,
first by the short half-life of MHC class I-associated peptides on DC in vitro and in vivo, and …
class I molecules on DC might contribute to the activation of self-reactive CTL and
subsequent development of autoimmune disease. We show here by using the rat insulin
promotor lymphocytic choriomeningitis virus glycoprotein model of autoimmune diabetes
that the activation of self-reactive CTL by DC after uptake of exogenous Ag is very limited,
first by the short half-life of MHC class I-associated peptides on DC in vitro and in vivo, and …
Abstract
This study evaluated to what extent presentation of exogenously acquired self-Ags via MHC class I molecules on DC might contribute to the activation of self-reactive CTL and subsequent development of autoimmune disease. We show here by using the rat insulin promotor lymphocytic choriomeningitis virus glycoprotein model of autoimmune diabetes that the activation of self-reactive CTL by DC after uptake of exogenous Ag is very limited, first by the short half-life of MHC class I-associated peptides on DC in vitro and in vivo, and second by the rather inefficient MHC class I presentation of cell-associated self-Ags by DC. These two mechanisms are probably crucial in establishing high thresholds for the induction of self-reactive CTL that prevent autoimmune sequelae after release of sequestered and previously immunologically ignored tissue Ags.
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